Concomitant 1q+ and t(4;14) influences disease characteristics, immune system, and prognosis in double-hit multiple myeloma

Dear editor, speci ﬁ c chromosomal abnormalities (CA) detected by Fluorescence in situ hybridization (FISH), including translocation t(4;14) and ampli ﬁ cation or gain of chromosome 1q (1q + ), confer inferior outcomes and shorter response to treatment [1, 2] in patients with Multiple Myeloma (MM). 1q + can involve the whole long arm of chromosome 1 or only speci ﬁ c cytobands such as 1q21, 1q22, or 1q23.3 [3, 4], with 1q21 being the most established probe for detecting this CA by FISH. Whole-arm 1q gains confer inferior outcomes compared with focal gains underlying the importance of an accurate characterization of the 1q region [5]. 1q + is often associated with t(4;14) as a cancer dependency [6]. The combined presence of 1q + and t(4;14) de ﬁ nes a distinct subset of patients with double-hit (DH) MM, which is the focus of this report. A retrospective chart review study (2021C0118) approved by the Ohio State University Institutional Review Board identi ﬁ ed 243

Dear editor, specific chromosomal abnormalities (CA) detected by Fluorescence in situ hybridization (FISH), including translocation t(4;14) and amplification or gain of chromosome 1q (1q+), confer inferior outcomes and shorter response to treatment [1,2] in patients with Multiple Myeloma (MM).1q+ can involve the whole long arm of chromosome 1 or only specific cytobands such as 1q21, 1q22, or 1q23.3 [3,4], with 1q21 being the most established probe for detecting this CA by FISH.Whole-arm 1q gains confer inferior outcomes compared with focal gains underlying the importance of an accurate characterization of the 1q region [5].1q+ is often associated with t(4;14) as a cancer dependency [6].The combined presence of 1q+ and t(4;14) defines a distinct subset of patients with double-hit (DH) MM, which is the focus of this report.
Patients were then analyzed based on three strategies using the above cutoffs in the 1q21+ analysis, 1q23+ analysis, and 1q+ analysis (Fig. S2B, C and Tables S2, S3).We did not observe differences in terms of gender, race, MM subtype, staging, or laboratory findings at presentation in the three analyses.t (11;14) and del(13q) were differently distributed in the 1q21+ analysis (p = 0.03 and 0.01), but not in the 1q23+ or 1q+ analyses.Induction treatments among the cohorts were well balanced, with most of the patients achieving either CR or VGPR as best responses post-ASCT (Fig. S2D, E).No difference in the rates of ASCT or maintenance therapy was present among the different cohorts.The only observed differences were as follows: median age was significantly lower in patients with DH MM compared with the other groups (1q21 + analysis: p = 0.04, 1q23+ analysis: p = 0.04); and, in the 1q+ analysis, patients with combined 1q21+ and 1q23+ had less CR/VGPR compared with the other groups as best response (p = 0.08, Fig. S2F).
We recently studied the role of CD56 in MM, showing a correlation between CD56 expression and t(4;14) [9]; in the herein described cohort, we also observed that patients with DH had greater percentages of CD56-expressing cells compared with patients with "Low CA" (Fig. 2A) and higher CD56 mRNA expression (Fig. S3A).No significant differences in CD56 clone size were noted among the other groups or in the 1q+ analysis (Fig. S3B, C).Patients with DH MM also had more inhibitory CD94 + NKG2A + Natural Killer (NK) cells (Fig. 2B, C) and higher mRNA levels of HLA-E, the binding target of CD94/NKG2A (Fig. 2D).We also observed increased percentages of T regulatory cells (Fig. S4A) and CD4 + CD25 -LAG3 + cells (Fig. S4B, C) in patients with either t(4;14) only or DH MM.
In summary, our study provides important insights into the field of 1q+/t(4;14) prognostication.First, since the effects on PFS and OS from ASCT are mainly evident in patients with large clones, our results suggest using a cutoff of positivity to properly categorize patients in the Revised International Staging System (ISS) [10], or in the R2-ISS score, which includes 1q+ in its algorithm [11].Our results remained significant adjusting for 1q copy numbers, a known prognostic factor [1]. Second, the specific combination of genomic features is relevant.We describe the characteristics of a distinct subset of patients with DH, namely patients with combined 1q+ and t(4;14).These patients are younger than those with the corresponding single CA, have less t (11;14), and have inferior PFS and OS from ASCT.The noted difference in lenght of response to ASCT is likely related to both changes in the expression of MM genes and in immune populations.Herein we show that patients with DH MM have greater CD56 clones, higher CD56 and HLA-E mRNA levels, and more inhibitory CD94 + NKG2A + NK cells compared with patients with single CA.Matching CA, gene expression, and immunophenotyping data as in [12], is becoming more and more important to improve responses to MM-directed therapies [13,14].Finally, the location and involved cytobands in 1q+ also matter.Our study reports two important findings: 1. 1q23+ only also worsens the prognosis in patients with t(4;14); 2. larger gains of chromosome 1 (combined 1q21+ and 1q23+) confer inferior outcomes compared with focal 1q21+ or 1q23+ gains, confirming the recent data from Boyle et al. [5].Using multiple probes on 1q chromosome as in [4] might hence allow to better stratification of patients with 1q+.
This study has some limitations.The cohort only included patients with the above CAs; therefore, we cannot define if the "Low CA" group performs similarly or worse than patients with standard risk MM.Similarly, flow cytometry data were limited to a subset of patients.Prior to FISH testing, all patient samples were immunomagnetically selected for CD138, however, due to limited specimen, purity was not assessed by a secondary method.Further research is needed to examine differences in plasma cell enrichment methodologies used by laboratories prior to FISH analysis to establish cutoffs [8].Finally, while FISH analysis currently represents the gold-standard for clinical analysis, how these results will translate with the use of newer technologies which can examine copy numbers and structural variations at a higher resolution across the genome, such as next generation sequencing [6] and optical genome mapping [15], remains to be elucidated.
In conclusion, our study raises important questions in the field of 1q+/t(4;14) prognostication: 1.Is there a need to uniformily define CA cutoffs?; 2. Should we use multiple 1q probes?; 3. Are we ready to use these CAs as predictive markers of response?Answering these questions will improve estimation of risk and impact therapeutic choices in patients with MM.

Fig. 1
Fig. 1 Kaplan-Meier curves for PFS and OS from ASCT.Log-rank p values and number at risk are reported for each graph in the panel.A, B PFS and OS for patients classified based on 1q21+.C, D PFS and OS for patients classified based on 1q23+.E, F PFS and OS for patients classified based on 1q+ abnormalities.Abbreviations: PFS Progression-free survival, OS overall survival, n number of patients, CI confidence interval, DH Double Hit, "Low CA" Low chromosomal abnormalities.NR not reached.